Phase-Slip Flux Qubits TU Delft In a recent paper submitted to the New Journal of Physics special issue on solid-state quantum information processing, Mooij and Harmans introduce phase-slip flux qubits, which harness quantum tunnelling to realize a superconducting qubit without the use of Josephson junctions. Phase-slip qubits potentially hold two distinct advantages over traditional flux qubits: lower sensitivity to charge noise-based sources of decoherence, and well-defined separation of energy levels of more than 500 GHz, allowing for extremely rapid excitation of the qubit.

Energy Level Separation Energy levels as a function of applied flux for different fluxoid numbers. A phase-slip event changes the fluxoid number n. The arrow indicates the operating point at f= ½.